Pages

Saturday, April 29, 2017

OpenSSL on Linux Terminal for Cryptography

OpenSSL is the most important library we will be using if we are to use some cryptographic functions on a Linux computer. There are hundreds of variations of cryptographic algorithms and related functions are available on Linux terminal with OpenSSL. In this post, I would like to note down few useful things we can do with OpenSSL library on Linux.

Base64 Encoding:

When dealing with various files and data types, sometimes it is useful to convert everything into text format. Base64 is an encoding technique which we can use to convert different data into text format and then decode from text format to the original format. Let's see how we can do it.

First of all, let's select an image file in jpg format. We are going to encode this image file in base64 format as follows.

cat old-house.jpg | openssl enc -base64 >> encoded-image.jpg

Now, it you try to open the encoded image file, you will see that you cannot open in as a usual image file. However, the nice thing is, you can open the encoded image file using a text editor because the content is printable characters now. Let's decode the encoded image file back to the original format.

cat encoded-image.jpg | openssl enc -base64 -d >> decoded-image.jpg

Data Encryption Standard (DES):

DES is a little bit older data encryption algorithm which we don't have to use nowadays. Anyway, with OpenSSL library, we can use DES as follows to encrypt data.

openssl enc -des -a -in plantext.txt -out ciphertext.des

Once encrypted, we can use the following command to decrypt the data back to the plain text.

openssl enc -des -d -a -in ciphertext.des -out plaintext.tex

Advanced Encryption Standard (AES):

AES is a better and stronger encryption algorithm compared to DES. We can encrypt a file using AES and then decrypt the file back to the plain text using the following two commands.

openssl aes-256-cbc -in plaintext.txt -out ciphertext.aes

openssl aes-256-cbc -d -in ciphertext.aes -out plaintext.txt

Rivest, Shamir, Adleman (RSA):

When we are browsing web on our computer or mobile phone through a secure channel, the encryption algorithm which helps us most importantly is RSA. It is an asymmetric key encryption algorithm where we have two keys called as Public key and Private key. Private key is what we always keep to ourselves while the Public key can be distributed among everybody.

First of all, we need to generate a key pair in order to use RSA. Let's generate the private key and public key using the following two commands.

If you check the local directory where you were when running the above commands, now you should be able to see that two new files are created as private_key.pem and public_key.pem which are our keys. Now, we can encrypt data using RSA. Let's say we are going to encrypt a text file so that only a friend can see it. Then, we have to use the friend's public key during the encryption as follows.

When sending an encrypted message to someone, sometimes we need to prove that we are the person who sent the message. Just because we use RSA encryption as above, we cannot prove that we sent it. In order to prove the senders identity, we can use digital signatures. A digital signature is nothing other than just a Hash value of the original message encrypted using the private key of the sender. Since the private key of someone is always with that perform, a digital signature can be produced only by the owner of the sender's private key. We can digitally sign as follows using the RSA private key.

Now, at the recipients side, he or she can verify the senders signature by decrypting the signature file using the senders public key (which is available) and then recalculate the Hash value of the original message. Following command illustrates that functionality.

1 comment:

I have created a make file that you may be interested in for this project. It downloads OpenSSL and the FIPS 140-2 compliant module, builds, links,and installs everything for you by just running a make file. This ensures that yuo are running the NSA Suite B crypto standard. Here is the link: https://github.com/joereith/OpenSSl-with-Fips-Support